참고문헌 (10)

1. Akai, K. and Tamura, T. (1978), Study of Two-dimensional Consolidation Accompanied by an Elastic Plastic Constitutive Equation, Proceedings of JSCE, No.269, pp.98-104 (in Japanese). 

2. Barron (1948), Consolidation of Fine-grained Soil by Drain Wells, Trans. ASCE, Vol.113, pp.718-742. 

3. Cai, J.C. and Miura, N. (1999), A Simple Method for Analyzing Consolidation of PVD Improved Subsoil, Proc. 8th Australia-New Zealand Conference on Geomechanics, Hobart, Vol.1, pp.243-249. 

4. Han, S.J., Yoo, H.K., Kim, B.I., and Kim, S.S. (2013), Settlement Characteristics of Soft Ground Applying the Suction Drain Method, Journal of the Korean Geotechnical Society, Vol.29, No.3, pp.15-27 (in Korean). 

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5. Hirata, M., Shimizu, H., Fukuda, J., Yamada, K., and Kawada, M. (2009), FE Simulation for Vertical Drain Placing Ground Using Expanded Macro-element Method, Journal of Applied Mechanics JSCE, Vol.12. 

6. Hirata, M., Shimizu, H., Fukuda, J., Yamada, K., and Kawaida, M. (2010), F.E. Simulation for Vertical Drain Placing Ground Using Expanded Macro-element Method, J. Appl. Mech.13, pp.431-442 (in Japanese). 

7. Matsumoto, K., Ochiai, H., and Yasufuku, N. (2003), Control of Stability of Filling on Soft Ground under Vacuum Consolidation based on Estimation by FEM Analysis, JSCE, No.750, III-65, 77-88. 

8. Sekiguchi, H., Shibata, T., Fujimoto, A., and Yamaguchi, H. (1986), A Macro-element Approach to Analyzing the Plane Strain behavior of Soft Foundation with Vertical Drains, Proceedings of the 31st Symposium of the JGS, pp.111-116 (in Japanese). 

9. Sekiguchi, H., Shibata, T., Mimura, M., and Sumikura, K. (1988), Behaviour of the seawall and Bridge Abutment at the edge of an offshore airport fill, the Annuals of the Disaster Prevention Research Institute Kyoto University, No.31 B-2. 

10. Vacuum Consolidation Technology Association (VCTA) (2014), Technical report of high vacuum pressure N&H method, pp.163-172 (in Japanese). 

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